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Paper detail

Renormalization in quantum theories of geometry

A hallmark of non-perturbative theories of quantum gravity is the absence of a fixed background geometry, and therefore the absence in a Planckian regime of any notion of length or scale that is defined a priori. This has potentially far-reaching consequences for the application of renormalization group methods a la Wilson, which rely on these notions in a crucial way. We review the status quo of attempts in the Causal Dynamical Triangulations (CDT) approach to quantum gravity to find an ultraviolet fixed point associated with the second-order phase transitions observed in the lattice theory. Measurements of the only invariant correlator currently accessible, that of the total spatial three-volume, has not produced any evidence of such a fixed point. A possible explanation for this result is our incomplete and perhaps naive understanding of what constitutes an appropriate notion of (quantum) length near the Planck scale.

preprint2020arXivOpen access
J. AmbjornJ. Gizbert-StudnickiA. GoerlichJ. JurkiewiczR. Loll
gr-qchep-lathep-th
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J. AmbjornJ. Gizbert-StudnickiA. GoerlichJ. JurkiewiczR. Loll

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